Abstract: The device for interstitial laser thermotherapy of tumors comprises an hollow needle (3) with a point (3A) for perforating a tissue (T) to be treated, and a light guide (9) which can be inserted in said hollow needle. The hollow needle is associated with a membrane (17) which is inflatable to form a balloon (P) into which the distal end (9A) of said light guide (9) can project, the membrane being inflated to create a cavity in the tissue to be treated into which laser radiation is guided by said light guide.

Abstract: The invention is directed to a laser catheter (1) for bypass surgery, wherein the distal part (2) of the catheter (1) is provided with: a tubular arrangement (3) of optical fibers (4) having distal ends (5) defining a ring-shaped light emergence surface (6) for emitting a tubular bundle of light beams in the distal direction (D) of the catheter (1); and a stop surface (7) extending around the tubular arrangement (3) of optical fibers (4) and facing in the distal direction (D), the stop surface (7) being arranged at a distance (A) proximally from the light emergence surface (6). The light emergence surface (6) slants at a slanting angle (?) in the range of [20°, 60°] with respect to the longitudinal axis (8) of the catheter (1). The invention further relates to an assembly comprising such a catheter.

Abstract: A dual port ablation cannula kit includes a trocar and a hollow shaft defining a longitudinal lumen. The shaft has a proximal segment and a distal segment, such that the distal segment includes a distal tip substantially aligned with the shaft to permit passage of the trocar within the hollow shaft. The distal tip also is configured with a tissue-gripping surface in as much as a plane of the tissue-gripping surface is substantially perpendicular to a longitudinal axis of the shaft, dual ports extending from an exterior surface of the hollow shaft, each port defining a hollow passageway into the hollow shaft, and dual couplers, one coupling a suction line to one of the dual ports and another coupling an irrigation line to another of the dual ports. Finally, the kit can include a laser fiber.

Abstract: Aspects for treating spinal cord injuries are disclosed. In a particular aspect, a method includes identifying a neurological level of a spinal cord injury, and activating neurons via laser therapy in which a laser beam is applied to an area proximate to the neurological level. In another aspect, a computer-readable storage medium includes computer-readable instructions for performing various acts. Such acts comprise ascertaining a neurological level of a spinal cord injury, and receiving data corresponding to a severity of the spinal cord injury. The acts further comprise outputting a laser calibration according to the neurological level and the severity. A medical device apparatus is also provided, which includes various computer executable components. The computer executable components include an assessment component configured to receive parameters corresponding to a spinal cord injury, and a calibration component configured to ascertain a laser calibration according to the at least one parameter.

Abstract: An apparatus for treating a subcutaneous fat region is provided. The apparatus includes a housing that has a skin contacting portion defining a chamber. The apparatus also includes a first spaced region in the housing through which a coolant passes and a second spaced region in the housing that is at least partially evacuated of air. The apparatus further includes a source of electromagnetic radiation, a source of vacuum in fluid communication with the chamber, and a source for the coolant.

Abstract: An improved device and method for safe, accurate and efficient surgical procedures are disclosed. The disclosed device is an optical fiber set with an asymmetric distal end configuration, comprising a bent tip fiber with a fused sleeve as an integral part of it, placed at the fiber's distal (output) end and with a rotatable connector at the proximal (input) side. Fiber tip and tissue-contacting surface located at the distal end of the tip may be constructed with different shape configurations, such as convex tip to improve focusing characteristics, concave tip to achieve diverging irradiation or an expanded beam tip to achieve an effect similar to that obtained by electrosurgical tools. A grip guarantees and enhances the ability to twist and rotate it easily. In another preferred embodiment, twisting maneuvers are enhanced through a special configuration.

Abstract: An apparatus and a method are described for setting up a medical laser machine configured to be used in eye surgery for making a multi-planar incision. In various embodiments, a software interface is provided to receive, from a user, one or more dimensional measurements of an eye of a patient as input, automatically calculate precise geometric and other setup parameters, based on a set of equations, of a multi-planar incision for the patient's eye, and provide the calculated parameters to the user for setting up the medical laser machine to make the incision.

Abstract: A probe tip for communicating and laterally directing electromagnetic radiation comprises a waveguide, a primary capsule, a compressible member and a malleable secondary capsule. The waveguide is configured to communicate electromagnetic radiation and includes a beveled surface at a distal tip for redirecting electromagnetic radiation in a lateral direction. The primary capsule is attached over the distal tip of the waveguide. The compressible member covers a portion of the primary capsule. The malleable secondary capsule is positioned over the primary capsule and the compressible member, and includes a crimp that compresses the compressible member against the primary capsule and secures the secondary capsule to the primary capsule.

Abstract: A technique for detecting and providing alerts or indications that can be used for controlling or altering the displacement speed of an applicator coupling skin heating energy across a treated skin. A temperature sensor monitors the rate of skin temperature change and provides feedback related to altering the applicator displacement speed according to the rate of skin temperature change. Disclosed is also an applicator for implementing this method.

Abstract: The present invention is a Miniature Vein Enhancer that includes a Miniature Projection Head. The Miniature Projection Head may be operated in one of three modes, AFM, DBM, and RTM. The Miniature Projection Head of the present invention projects an image of the veins of a patient, which aids the practitioner in pinpointing a vein for an intravenous drip, blood test, and the like. The Miniature projection head may have a cavity for a power source or it may have a power source located in a body portion of the Miniature Vein Enhancer. The Miniature Vein Enhancer may be attached to one of several improved needle protectors, or the Miniature Vein Enhancer may be attached to a body similar to a flashlight for hand held use. The Miniature Vein Enhancer of the present invention may also be attached to a magnifying glass, a flat panel display, and the like.

Abstract: An apparatus for applying energy to an object includes at least one combination element for combining multiple energy applying elements for applying energy to the object. The combination element includes an axis around which the energy applying elements are wound. Further, the energy applying elements include energy emission locations arranged along a line.

Abstract: Disclosed herein are systems and methods for reducing effects of restless legs syndrome (RLS) in a subject. The method includes identifying, on the subject, a body region affected by RLS, placing an emitter unit in direct contact with skin of the body region, wherein the emitter unit includes at least one emitter that emits near-infrared light, and activating the emitter to emit an effective amount of near-infrared light for inducing release of nitric oxide from hemoglobin or generation in the endothelium. Also disclosed is an emitter unit that is placed in direct contact with a subject's skin associated with RLS to reduce the effects of RLS. The emitter unit emits an effective amount of near-infrared light directed to the subject's skin to induce release of nitric oxide from hemoglobin or generation in the endothelium, and a module configured to toggle the emitter unit between a transmitting and a nontransmitting mode.

Abstract: An end effector assembly for use with an electrosurgical instrument is provided. The end effector assembly includes a pair of opposing jaw members configured to grasp tissue therebetween. The assembly also includes a thread-like member having a first end coupled to at least one jaw member and a drive member coupled to a second end of the thread-like member. The drive member is configured to position the thread-like member between a first position and a second position, wherein the thread-like member cuts tissue when positioned in the second position.

Abstract: A method of manufacture and medical apparatus that provides an apparatus useful in illuminating at least a portion of a lumen of a body. The apparatus includes an elongated flexible member and a polymer encasement portion encasing a plurality of light emitters. The light emitters may be electrically coupled to one another without the use of wire bonds, and in some embodiments may be coupled without intervening electrical paths or traces. A maximum cross-sectional dimension of the polymer encasement portion may be less than twice a dimension of one of the light emitters. In some embodiments the maximum cross-sectional dimension is less than or equal to the sum of the dimension of one of the light emitters and a marginal dimension by which an outer portion of the polymer encasement portion extends beyond the light emitter. Light emitters may be arranged linearly, helically or in partially overlapping back-to-back relation.

Abstract: A light delivery system to provide light treatment to a patient includes a catheter assembly having a plurality of light sources that transmit light towards a target site within a patient. In one embodiment, the light delivery system has a plurality of light sources mounted to a flexible transparent base that extends at least partially through a distal tip of the catheter assembly. The light sources can be wire bonded or mounted in a flip chip arrangement onto the base. In one embodiment to produce the distal tip, an array of light energy sources can be held by an array of holders of a fixture device. A vacuum is applied to secure each light energy source in a corresponding holder. While the vacuum is applied, the energy sources are electrically connected by wire bonding. The vacuum can be reduced or stopped thereby permitting removal of the light energy sources from the fixture device.

Abstract: A method and apparatus that will alter the fibrous strands in the fatty layers of the skin to reduce the appearance of cellulite and adipose tissue. Electromagnetic energy is used to selectively shrink or alternatively photoacoustically ablate the collagen in the constricting bands of connective tissue that causes the dimpled appearance of cellulite and adipose tissue while avoiding damage to the surrounding fatty cells.

Abstract: An apparatus and a method are provided for the treatment of soft tissue. The apparatus includes a light source and at least two optical assemblies. Each of the optical assemblies includes at least one optical element and a light-transmitting contact surface configured to transmit a substantially uniform distribution of light therethrough. The apparatus further includes at least two optical transmission devices each disposed between the light source and a corresponding one of the at least two optical assemblies. The apparatus also includes a handpiece to which the at least two optical assemblies are attached, and which is adapted to bring the light-transmitting contact surfaces of the at least two optical assemblies in contact with soft tissue disposed therebetween.

Abstract: A method for puncturing a pericardial membrane of a human patient, the method comprising inserting a needle into the chest of the human patient, detecting a phase of a mechanical activity of the heart of the human patient, advancing the needle toward the heart of the human patient in synchronization with the detected phase of the mechanical activity of the heart of the human patient, and repeating the detecting and advancing steps until the pericardial membrane of the human patient is punctured.

Abstract: Embodiments of methods and systems for hair treatment are disclosed. According to various embodiments, light is used to shave, trim, or otherwise modify hair shafts.

Abstract: A two-step mammalian biofilm treatment process can have a first step of disrupting or dispersing an undesired biofilm present at a treatment site in or on a mammalian host by suitable mechanical action for example, by applying irrigation fluid, sonic or other vibration, a mechanical instrument or laser-generated mechanical shockwaves to the biofilm. The treatment can also have a second step comprising applying an antimicrobial treatment to the mammalian host to control possible infection related to biofilm dispersed in the first step or to residual biofilm at the treatment site. Usefully, the second step can be performed within a limited time period after the first step. The process can also include additional steps The antimicrobial treatment can employ light or an antibiotic material. Included are implants cleaned of biofilm by a described process.

Abstract: A method and apparatus for performing minimally-invasive image-guided laser ablation of targeted region within a tissue or organ comprising the following: A guidance tool that can guide laser source to a predefined target region from a planning image; A controller that can control energy from laser source, duration of its application and dosage of energy from laser source; and a computer with software that can compute thermometry based on precise location and duration of application or dosage of the laser source. The computer receives signal from controller and can control or shut-off laser energy.

Abstract: A laser applicator includes an optical fiber with a core surrounded by a cladding. The cladding contains openings (40) for coupling radiative energy outward. To accomplish an even distribution of energy, the size of the opening increases from the proximal end to the distal end. The openings (40) are combined into groups (45), with the number of openings within a group varying. The openings (40) are of a uniform size so that the area of decoupling (13) can be produced in a simple manner.

Abstract: Handpiece formed of a shell with a handgrip connected to a bundle of electrical power supply cables and of heat transfer fluid tubes and a head, accommodating a cartridge fitted with the controlled light source and with a light guide fed from the light source and the outlet surface of which constitutes the surface via which the light signal is emitted towards the surface of the skin that is to be treated. It comprises a housing, made in the shell, arriving under the emission surface of the cartridge and equipped with guide means and clip-fastening members. An interchangeable optical unit carrying the light guide is fitted removably into the housing. This optical unit has a casing accepting the light guide and equipped with guiding and clip-fastening surfaces to collaborate with the guide means and the retractable clip-fastening members belonging to the housing.

Abstract: Skin cooling apparatus is provided for use with a medical treatment device such as a hypodermic syringe or a skin ablation laser or other electromagnetic source. The skin cooling apparatus provides selective, localized cooling of the target area that is acted upon by the medical treatment device. Included is a support body engaging at least a portion of the medical treatment device, for supporting and orienting the medical treatment device to the target area. A solid state cooling device such as a thermoelectric or Peltier device is carried by the support body and includes a cooling surface facing the target area of a patient's skin surface. The support body may be flexible so as to allow the medical treatment device to be inclined relative to the skin surface. The support body may also include aiming structure for directing the medical treatment device to a particular point within the target area.

Abstract: An improved optical fiber comprising a waveguide with an input for coupling focused laser energy into the waveguide and communicating electromagnetic radiation in a propagation direction to an internally reflective tip of the waveguide, a tissue contacting surface wherein the light path from the reflecting surface to the transmitting surface in substantially homogenous in refractive index and cooled by fluid flow. In minimizing the variations in refractive index within the lateral light path, while providing active cooling directly below the tissue contact surface, the invention prevents internal reflections and beam distortion and greatly improves the efficiency and durability of the laterally directing probe. Free rotation of the tissue contact surface, about the lateral tip, may be provided and tissue vaporization efficiency may be improved by providing a morcellating tool on the tissue contact surface.

Abstract: A method can include targeting a region of interest below a surface of skin, which contains fat lobuli and delivering ultrasound energy to the region of interest. The ultrasound energy generates a conformal lesion with said ultrasound energy on a surface of a fat lobuli. The lesion creates an opening in the surface of the fat lobuli, which allows the draining of a fluid out of the fat lobuli and through the opening. In addition, by applying ultrasound energy to fat cells to increase the temperature to between 43 degrees and 49 degrees, cell apoptosis can be realized, thereby resulting in reduction of fat.

Abstract: An optical coherence tomography probe and laser combination device configured for real-time z-directional guidance of the incisional depth of a surgical procedure. It can be used alone or placed within the working channel of an endoscope. The device includes an OCT single mode fiber, and a laser fiber or laser hollow waveguide or electrical surgical wire positioned adjacent to the OCT single mode fiber. The single mode fiber is configured to move laterally when activated by an actuator to scan light data reflected from a sample that is positioned in front of a distal end of the device. The light data can be processed to generate a B-scan image. The device can collect data in real-time during lasing, or immediately prior to and following the cutting. The surgical tool, when coupled to a processor, can deactivate when the B-scan image identifies that the incision is within a predefined tolerance.

Abstract: The present disclosure relates to a portable irradiating arrangement having a light source, particularly a laser diode, comprising an outer sleeve, an inner sleeve, and a radiation distributing probe, whereby the inner sleeve is mounted in the outer sleeve and the radiation distributing probe may be attached at a probe-facing end of the outer sleeve, whereby the irradiating arrangement is designed in such a way that the light source can be turned on only when the radiation distributing probe is attached to the outer sleeve. The invention relates further to a portable irradiating arrangement, in which the inner sleeve is in contact with the radiation distributing probe in such a way that the inner sleeve must be detached from the radiation distributing probe before removal of the radiation distributing probe from the outer sleeve.

Abstract: The present disclosure relates systems and methods for tissue remodeling, that ameliorate fat deposits by disrupting adipocytes through low-temperature extended treatment time approaches, in conjunction with selective treatment and/or localized cooling of the treatment site to prevent or minimize damage to non-target tissues.

Abstract: A multiphoton microscope is provided. The microscope includes: an excitation source for providing an optical excitation beam at an excitation wavelength ?; a scanner for scanning the excitation beam on a sample; an objective for irradiating the sample with the excitation beam scanned by the scanner and for collecting an emission beam from the sample; a first detector for detecting a plurality of multiphoton signals; and an emission light path allowing transmission from the objective to the first detector a wavelength band limited to greater than or equal to ?/2 and less than ?, wherein the plurality of multiphoton signals have wavelengths within the wavelength band; wherein the plurality of multiphoton signals comprises a first multiphoton signal and a second multiphoton signal of different types. Fast image capture rate multiphoton microscopes for in vivo imaging, as well as photothermolysis methods using the microscopes are also provided.

Abstract: A forceps includes a drive assembly and an end effector assembly having first and second jaw members movable between a spaced-apart position, a first approximated position, and a second approximated position. The drive assembly includes a drive housing and a drive bar. The proximal end of the drive bar is coupled to the drive housing, while the distal end of the drive bar is coupled to at least one of the jaw members. The drive housing and the drive bar are selectively movable in conjunction with one another between a first position and a second position to move the jaw members between the spaced-apart position and the first approximated position. The drive assembly is selectively activatable to move the drive bar independent of the drive housing from the second position to a third position to move the jaw members from the first approximated position to the second approximated position.

Abstract: Various embodiments are directed to battery unit for use with surgical instruments. The battery units may comprise a plurality of cells and include a translatable discharge drain. When attached to the surgical instrument, the discharge drain may electrically connect an anode of the battery unit to a cathode of the battery unit, for example, via a resistive element in order to drain the battery unit.

Abstract: A catheter is adapted to ablate tissue and provide lesion qualitative information on a real time basis, having an ablation tip section with a generally omni-directional light diffusion chamber with one openings to allow light energy in the chamber to radiate the tissue and return to the chamber. The chamber is irrigated at a positive pressure differential to continuously flush the opening with fluid. The light energy returning to the chamber from the tissue conveys a tissue parameter, including without limitation, lesion formation, depth of penetration of lesion, cross-sectional area of lesion, formation of char during ablation, recognition of char during ablation, recognition of char from non-charred tissue, formation of coagulum around the ablation site, differentiation of coagulated from non-coagulated blood, differentiation of ablated from healthy tissue, tissue proximity, and recognition of steam formation in the tissue for prevention of steam pop.

Abstract: The present invention relates to a device for administering electromagnetic radiation to human tissue, in particular light to skin. The device comprises a treatment head with a recess (10) in which the light is emitted and in which the air pressure may be decreased by a pump (11). The device also comprises a pressure gauge (8) for measuring the pressure in the recess (10). Above a certain threshold value the device will not function, because this indicates an incorrect positioning of the device on the skin, which might cause harm to persons. By providing the pressure gauge (8), an operator may determine whether the positioning of the treatment head is correct. The device is advantageously automated in that the pressure gauge (8) is connected to control means (5) for controlling the source (3) of radiation.

Abstract: A medical laser apparatus with a beam homogenizer for producing a uniform output beam profile. The beam homogenizer comprises a light pipe which expands the laser beam and mixes the laser light through total internal reflection as well as an optical diffuser to provide further control of the intensity distribution of the laser beam.

Abstract: Methods, apparatus and systems for modifying apocrine glands are disclosed herein. A method for modifying apocrine glands may comprise inserting a tissue dissecting and modifying wand (TDM) into an incision in a patient's skin. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to incapacitate apocrine glands. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to incapacitate apocrine glands. In some implementations, the energy window may be activated prior to separating the tissue such that the tissue is separated while apocrine glands are incapacitated within the target region.

Abstract: Methods, apparatus and systems for incapacitating eccrine glands are disclosed herein. A method for incapacitating eccrine glands may comprise inserting a tissue dissecting and modifying wand (TDM) into an incision in a patient's skin. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to incapacitate eccrine glands. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to incapacitate eccrine glands. In some implementations, the energy window may be activated prior to separating the tissue such that the tissue is separated while eccrine glands are incapacitated within the target region.

Abstract: A method of modulating a physiological parameter of a patient by percutaneously or transcutaneously disabling one or more pre-aortic ganglion cells within a pre-aortic ganglion via the anterior abdominal wall and improving the physiological parameter is provided. The pre-aortic ganglion cells may be disabled by applying radiofrequency, high intensity or low intensity focused ultrasound.

Abstract: An interstitial laser energy treatment apparatus having co-acting movable probe holders which facilitate positioning of a laser probe and thermal probe in different positions relative to a tissue mass such as the tumor to be treated and relative to each other to facilitate treating tissue masses based on the exact position, size and shape of the tissue mass.

Abstract: The various embodiments of the present invention relate to remote pneumatic (bellows-action) actuators for switching applications, which are preferably sterile and/or disposable. When compressed, the bellows-action actuator provides a pulse of air pressure sufficient to actuate a remotely-located pneumatic switch configured to turn on/off an electrical, mechanical or optical device. The pulse of air pressure is propagated along a non-conducting tube, thereby substantially reducing the risk of e.g., electric shock or O2 ignition/combustion associated with conventional electric switches in wet, hazardous or medical environments.

Abstract: One or more treatment parameters are determined for a cornea reshaping procedure. The one or more treatment parameters are selected so as to reduce an amount of collagen shrinkage in a cornea of a patient's eye caused by the cornea reshaping procedure. For example, the one or more treatment parameters could be selected so as to minimize an amount of stromal collagen shrinkage in the cornea of the patient's eye caused by the cornea reshaping procedure. As another example, the cornea reshaping procedure could include irradiating multiple spots on the cornea of the patient's eye, where each spot is associated with an amount of stromal collagen. The one or more treatment parameters could be selected so that no more than 1% or 5% of the stromal collagen in the irradiated spots undergoes clinically significant shrinkage as a result of the cornea reshaping procedure.

Abstract: Various devices, systems, and methods are capable of killing tumor cells by delivering cell-disrupting agents into a tumor in an inward direction from a peripheral border about the tumor. In some examples, a covering that includes one or more emissive elements encompasses at least a portion of a tumor such that the emissive element is directed inwardly toward the tumor so as to be able to introduce a cell-disrupting agent into the tumor. In further examples, the covering is incorporated into a glove.

Abstract: A handpiece for a medical instrumentation device is formed with manually deformable ribs on an outer sleeve. The ribs align with conductive surfaces inside the handpiece that make contact with an internal flexible electronic circuit to activate the device when force is applied to the ribs. Removing the force deactivates the device.

Abstract: An ophthalmic patient interface system includes an interface device and an ocular device. The interface device includes a frame having a first end and a second end, a lens disposed at the first end, and a skirt affixed to the first end. The second end is adapted to couple with a surgical laser system, and the skirt is adapted to seal against an anterior surface of an eye. The ocular device includes magnifying optics and is adapted to be removably seated within the second end. The magnifying optics image a region on a corneal side of the lens when the ocular device is seated within the second end.

Abstract: Methods and apparatuses to apply substances to a biological tissue are described. The tissue having an target below a surface is stretched to provide openings in a surface. Stretching forces a material from the target onto the surface. A first substance may be applied while stretching to promote cleaning the tissue. A second substance may be applied to the surface. Energy may be applied to the tissue. Then the tissue is relaxed to draw the second substance through the openings into the tissue. The tissue may be stretched by applying a negative pressure, and relaxed by removing the negative pressure. The first substance may be an abrasive material. The second substance is a medicine, a moisturizer, a lotion, or any combination thereof. The second substance may be applied to the biological tissue using a positive pressure. The apparatus to apply substances may be a handheld device.

Abstract: Architectures and techniques for treating conditions of the eye, such as presbyopia, utilize sources of treatment energy, such as electromagnetic energy emitting devices, to implement non-corneal manipulations. According to these devices and methods, the sources of treatment energy are activated to direct energy onto parts of the eye, such as the conjunctiva and sclera, to treat presbyopia. The treatments can affect at least one property of the eye and enhance an accommodation of the eye.

Abstract: A light diffuser (10), which is particularly suitable for introducing diffuse light into a tissue, is produced by interpenetration of a diffuser material in a liquid state into a boundary layer (4) of a porous shaping material, by which process a diffuser surface is formed having a surface structure which represents essentially a negative of the pore structure of the shaping material and includes undercut structures induced by a surface tension. The light diffuser (10) is e.g. produced by introducing a diffuser blank (1) including material which is liquefiable through mechanical vibration into the shaping material and simultaneously stimulating it with mechanical vibrations, such that the liquefiable material liquefies at least there where it is in contact with the shaping material and is pressed into the shaping material. An in situ production of the diffuser is particularly advantageous for photodynamic therapy in bone tissue (20).

Abstract: Embodiments of the present invention include a laser catheter that includes a catheter body, a light guide, and a distal tip that extends beyond the exit aperture of the light guide. In some embodiments, an imaging device is disposed on the distal tip such that the imaging device is distal relative to the exit aperture of the light guide. In some embodiments, the imaging device can be gated to record images during and/or slightly beyond periods when the laser catheter is not activated.

Abstract: The present disclosure is directed towards a medical instrument. The medical instrument includes a housing and an end effector assembly operably connected to the housing. The end effector assembly includes first and second jaw members each having a tissue contacting surface, at least one of the first and second jaw members movable between a first, spaced-apart position and a second proximate position, wherein in the second position, the jaw members cooperate to define a cavity configured to receive tissue between the jaw members. The end effector also includes at least one light-emitting element coupled to at least one of the first and second jaw members, the at least one light-emitting element adapted to deliver light energy to tissue grasped between the first and second jaw members to treat the tissue.

Abstract: At least one embodiment of the invention relates to a catheter arrangement comprising a catheter with a proximal section and a distal section, to measure a force acting on the distal section and simultaneously receive a temperature signal prevailing in the distal section. According to at least one embodiment of the invention, the catheter arrangement comprises an evaluation unit connected to a single combined optical force and temperature sensor, and further comprises a readout signal generator to generate and feed a readout signal modulated with a carrier frequency into the force sensor and temperature sensor. According to at least one embodiment of the invention, the catheter arrangement comprises a first readout device to read out a first modulated measuring signal portion, a second readout means to read out a second unmodulated measuring signal portion, and a processing unit to combine the first and second measuring signal portions.